System architecture choices can significantly impact the delivery of reliable and sustainable energy from solar energy systems with integrated battery storage. DC-coupled systems can deliver improved energy production but can have less operational flexibility. And, while DC-coupled systems are more straightforward in terms of hardware, their control and management software needs can be more complex.…
What does electrochemical impedance spectroscopy have to do with Li-ion health?
Electrochemical impedance spectroscopy (EIS) can be used for estimating the power delivery capability and state of health (SoH) of Li-ion batteries. It is important because it has the potential to improve rapid and accurate SoH monitoring of Li-ion batteries and support more sustainable battery storage systems for electric vehicles (EVs) and grid-scale energy storage systems.…
What causes signal attenuation in a PCB and how can it be controlled?
Except for the most basic designs, system clock rates are inexorably creeping upward across a wide range of applications, from 5G telephony to automotive advanced driver assistance systems (ADAS), medical, industrial, and mil/aero systems. As frequencies rise into the GHz range, the need for impedance control to minimize signal attenuation and protect signal integrity gets […]
When to filter, attenuate, and equalize signals
Signal chain management is important in various applications like medical imaging, 5G communications, advanced driver assistance systems (ADAS), and a range of consumer, industrial, and military devices. Filters, attenuators, and equalizers are some of the tools designers have available to optimize signal chain operation. This FAQ begins by looking briefly at the definition of decibels […]
Optical attenuators and loopbacks, what’s the difference?
Fiber optic attenuators (optical attenuators) are used to reduce or control the energy of optical signals. They are used in optical communications systems to protect sensitive receivers or to modulate signals and for engineering evaluation, testing, and system validation. This FAQ reviews the basic operation of optical attenuators, looks at practical applications for optical attenuators, […]
Why use attenuators in quantum computers?
Quantum computers are cryogenically cooled because their quantum bits (qubits) are extremely delicate and sensitive to disruptions from even minute amounts of thermal noise, such as Johnson-Nyquist (J-N) noise. J-N noise is generated by the thermal agitation of electrons, regardless of any applied voltage, when the conductor is at equilibrium. Even small amounts of J-N […]
What kinds of attenuators are there?
Attenuators are often defined as electronic devices that reduce the power of a signal without introducing significant distortion. While that’s not incorrect, it’s also not complete. For example, optical attenuators can be based on fixed or variable neutral density (ND) filters and are largely mechanical constructions. This FAQ considers basic types of electronic attenuators. Other […]
When to use standalone or MCU-hosted Matter platforms
The choice is driven by several factors, including the communications protocol or protocols being used and the device type and location within the local Matter ecosystem. Solution size requirements, powering expectations, and bandwidth needs are some deciding factors when choosing between various Matter platforms. If a MCU platform is used, there’s the added choice between […]
How does Matter support multiple fabrics?
In this context, a “fabric” is a group of networked devices that share the same security domain enabling secure communications within the fabric. Devices in each fabric share the same top-level certificate authority (CA), a Root of Trust determined by the CA, and have a unique (usually 64-bit) identifier called the Fabric ID. To add […]
What’s a distributed compliance ledger and how is one integrated into Matter?
A distributed ledger is a type of database that’s shared, copied, and synchronized within a decentralized network. The general principal is similar to the blockchain technology used by cryptocurrencies like Bitcoin. The distributed compliance ledger (DCL) developed by the Connectivity Standards Alliance (CSA), developers of Matter, is a type of distributed ledger used during the […]